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| <!-- Page intro --> | | <!-- Page intro --> |
| <div style="border-left: 5px solid #0ea5e9; padding: 1em; background-color: #ecfeff; margin: 1em 0;"> | | <div style="border-left: 5px solid #0ea5e9; padding: 1em; background-color: #ecfeff; margin: 1em 0;"> |
| <p style="margin: 0; font-weight: bold;">📘 This page is a collection of resources for Secondary 5 Physics (203-001-05).</p> | | <p style="margin: 0; font-weight: bold;">📘 This page is a collection of resources for Secondary V Physics Remedial Activities (203-001-05).</p> |
| </div> | | </div> |
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| <div style="border: 1px solid #28a745; padding: 0.8em; background-color: #f0fdf4; margin: 1em 0;"> | | <div style="border: 1px solid #28a745; padding: 0.8em; background-color: #f0fdf4; margin: 1em 0;"> |
| <p><strong>🌟 Booster Course:</strong><br> | | <p><strong>🌟 Booster Course:</strong><br> |
| <a href="https://vanier.moodle.decclic.qc.ca/course/view.php?id=3225" target="_blank">GIS: Exploration Sec 4 & Sec 5 | Vanier Moodle</a><br> | | [https://vanier.moodle.decclic.qc.ca/course/view.php?id=3225 GIS: Exploration Sec 4 & Sec 5 | Vanier Moodle]<br> |
| <em>Students can self-enroll with their Office365 account.</em></p> | | <em>Students can self-enroll with their Office365 account.</em></p> |
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| <em>Physics 006 – Lecture Notes by Harris Benson</em></p> | | <em>Physics 006 – Lecture Notes by Harris Benson</em></p> |
| </div> | | </div> |
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| == Math Review ==
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| === 🎥 Videos ===
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| * [http://www.khanacademy.org/video/basic-trigonometry?topic=trigonometry-1 Khan Academy: Basic Trigonometry]
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| * [https://youtu.be/RCDOi98Y6N4 Solving a system (Sharp EL-W516X)]
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| * [https://youtu.be/In77i35F7RQ Solving a system (Sharp EL-520X)]
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| * [https://youtu.be/b4-UYhT7mkQ Solving a system (Casio fx-991ES)]
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| * [https://youtu.be/FZp7heJPgi8 Solving with WolframAlpha]
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| === 🧪 Simulation ===
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| * [https://phet.colorado.edu/en/simulation/trig-tour PhET: Trig Tour]
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| === 🛠 Tools ===
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| * [https://www.wolframalpha.com WolframAlpha: Solve equations online]
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| === 📝 Practice ===
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| * [http://www.khanacademy.org/exercise/trigonometry_1 Khan Academy Practice: Trigonometry 1]
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| * [http://stefan.bracher.info/files/physics/scientific_bingo_math.htm# Scientific Math Bingo]
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| == Measurements == | | == Measurements == |
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| == 1D Kinematics == | | == Math Review == |
| === 🎥 Videos ===
| | 👉 [[SEC_V_Math]] |
| * [https://www.youtube.com/watch?v=-8eGB1WH0jw Example: Graphs]
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| * [https://youtu.be/EZXLkAYjmR0 Distance → Velocity Graphs]
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| * [http://stefan.bracher.info/files/physics/kinematics_formulas.htm Equations for motion with constant acceleration]
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| * [https://www.youtube.com/watch?v=dKe0XFzSc6g Free Fall Example]
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| * [https://youtu.be/8G1oc5Qq90U Kinematics Review (AP Physics 1)]
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| * [http://stefan.bracher.info/files/physics/smart_phone_accelerometer.pdf Explore: Smartphone Accelerometer]
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| === 📖 Readings ===
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| * [https://cnx.org/contents/A3gVi_44@1.67:4SMp5I1s@2 OpenStax: Intro to 1D Kinematics]
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| * [https://cnx.org/contents/A3gVi_44@1.67:_H3EiPTs@5 OpenStax: Displacement]
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| * [https://cnx.org/contents/A3gVi_44@1.67:gj9KHj0Q@2 OpenStax: Vectors, Scalars, Systems]
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| * [https://cnx.org/contents/A3gVi_44@1.67:FalnnAQi@4 OpenStax: Time, Velocity, Speed]
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| * [https://cnx.org/contents/A3gVi_44@1.67:YCO4fVoo@6 OpenStax: Acceleration]
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| * [https://cnx.org/contents/A3gVi_44@1.67:7x6Qspwt@9 OpenStax: Graphical Analysis of Motion]
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| * [https://cnx.org/contents/A3gVi_44@1.67:6iuyPE_O@11 OpenStax: Equations for Constant Acceleration]
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| * [https://cnx.org/contents/A3gVi_44@1.67:aNsXe6tc@2 OpenStax: Problem-Solving Basics]
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| * [https://cnx.org/contents/A3gVi_44@1.67:nkhtuBIO@7 OpenStax: Falling Objects]
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| * [https://cnx.org/contents/A3gVi_44@1.67:8wmg-WP7@3 OpenStax: Intro to 2D Kinematics]
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| * [https://cnx.org/contents/A3gVi_44@1.67:IdDiF9UP@5 OpenStax: Kinematics in 2D]
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| === 🧪 Simulation ===
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| * [https://phet.colorado.edu/en/simulation/legacy/moving-man PhET: Moving Man Simulation]
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| === 📝 Practice ===
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| * [https://www.geogebra.org/m/pdNj3DgD GeoGebra: Graphs Practice]
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| * [https://www.mathcelebrity.com/kinematic.php Kinematics Equations Calculator]
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| 👉 [[SEC_V_Vectors]] | | 👉 [[SEC_V_Vectors]] |
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| | == Kinematics == |
| | 👉 [[SEC_V_Kinematics]] |
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| == Newton's Laws == | | == Newton's Laws == |
| === Videos ===
| | 👉 [[SEC_V_Newton]] |
| * [https://youtu.be/AUSXcozE_A0 Video: Introduction to Newton's Laws of Motion]
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| * [https://youtu.be/WzvhuQ5RWJE Video: Newton's 2nd Law of Motion]
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| * [https://youtu.be/cP0Bb3WXJ_k Video: Newton's 3rd Law of Motion]
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| * [https://youtu.be/dzdDzzRZm9U Video: Free Body Diagrams]
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| * [https://youtu.be/TLtGWls5F_I Video: Normal Forces Part 1]
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| * [https://youtu.be/JTeVBfUBdDs Video: Normal Forces Part 2]
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| * [https://youtu.be/t2RjGcvNSas Video: Tension Force]
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| * [https://youtu.be/dPSOs9lw90I Video: Step by Step example with Newton's 1st Law of Motion]
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| * [https://youtu.be/R6ltYEMHuwc Video: Step by Step example with Newton's 2nd Law of Motion]
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| * [https://youtu.be/pWsab45Httg Video: Two-body example using Newton's 3rd Law of Motion]
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| * [https://youtu.be/yC47CbcoWOE Video: Neil deGrasse Tyson: Einstein vs Newton - Who Was Right?]
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| === Readings === | | == Energy == |
| * [https://cnx.org/contents/A3gVi_44@1.67:AvUqAiSE@5/Introduction-to-Dynamics-Newton-s-Laws-of-Motion OpenStax: Introduction to Dynamics: Newton’s Laws of Motion] | | === 🎥 Videos === |
| * [https://cnx.org/contents/A3gVi_44@1.67:3kOuFdH6@4/Development-of-Force-Concept OpenStax: Development of Force Concept ]
| | * [https://youtu.be/oDNAqnKhjZA Intro to Conservation of Energy] |
| * [https://cnx.org/contents/A3gVi_44@1.67:5AhMTd-L@2/Newton-s-First-Law-of-Motion-Inertia OpenStax: Newton’s First Law of Motion: Inertia] | | * [https://youtu.be/a-4UISMSVpE Conservation of Energy in Mechanics] |
| * [https://cnx.org/contents/A3gVi_44@1.67:ivpbwI-1@9/Newton-s-Second-Law-of-Motion-Concept-of-a-System OpenStax: Newton’s Second Law of Motion: Concept of a System]
| | * [https://youtu.be/BEyZ60DHLnE Mechanical Work] |
| * [https://cnx.org/contents/A3gVi_44@1.67:1VEKi6Bu@7/Newton-s-Third-Law-of-Motion-Symmetry-in-Forces OpenStax: Newton’s Third Law of Motion: Symmetry in Forces]
| | * [https://youtu.be/y265HF0I1kg Work & Potential Energy] |
| * [https://cnx.org/contents/A3gVi_44@1.67:WlG1xRdW@10/Normal-Tension-and-Other-Examples-of-Forces OpenStax: Normal, Tension, and Other Examples of Forces] | | * [https://youtu.be/a5qhsUWiZjw Work & Kinetic Energy] |
| * [https://cnx.org/contents/A3gVi_44@1.67:mUgUzFLi@8/Problem-Solving-Strategies OpenStax: Problem-Solving Strategies] | |
| * [https://cnx.org/contents/A3gVi_44@1.67:w3JWHgjo@9/Further-Applications-of-Newton-s-Laws-of-Motion OpenStax: Further Applications of Newton’s Laws of Motion] | |
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| | === 📖 Readings === |
| | * [https://cnx.org/contents/A3gVi_44@1.67:ZDtuSt4h@2 OpenStax: Work & Energy Resources] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:NkooLWJ4@7 OpenStax: Work – Scientific Definition] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:P_-6tVsN@5 OpenStax: Kinetic Energy & Work-Energy Theorem] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:RTxYH8A6@9 OpenStax: Gravitational Potential Energy] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:MvpfSmd_@5 OpenStax: Conservative Forces] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:CS_6KKGe@8 OpenStax: Nonconservative Forces] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:xa2wEvur@7 OpenStax: Conservation of Energy] |
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| === Simulations ===
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| * [https://phet.colorado.edu/en/simulation/forces-and-motion-basics Phet: Forces and Motion: Basics]
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| * [https://phet.colorado.edu/en/simulation/legacy/ramp-forces-and-motion Phet: Forces and Motion]
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| * [https://phet.colorado.edu/en/simulation/legacy/forces-and-motion Phet: Forces and Motion]
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| * [https://phet.colorado.edu/en/simulation/legacy/lunar-lander Phet: Lunar Lander]
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| == Energy == | | == Reflection & Refraction == |
| | === 🎥 Videos === |
| | * [https://www.youtube.com/watch?v=UUyoVtdEkd4 Mirror Image Example] |
| | * [https://www.youtube.com/watch?v=1hZSmzBA348 Angle of Refraction] |
| | * [https://www.youtube.com/watch?v=idHUKmJIDUQ Concave Mirror Images] |
| | * [https://www.youtube.com/watch?v=dx7RAI_DCF0 Convex Mirror Images] |
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| === Videos === | | === 📖 Readings === |
| * [https://youtu.be/oDNAqnKhjZA Video: Introduction to Laws of Conservation (Conservation of Energy)] | | * [https://cnx.org/contents/A3gVi_44@1.67:itIvTSi4@2 OpenStax: Intro to Geometric Optics] |
| * [https://youtu.be/a-4UISMSVpE Video: Conservation of Energy in Mechanics] | | * [https://cnx.org/contents/A3gVi_44@1.67:nOWj2nQA@4 OpenStax: The Ray Aspect of Light] |
| * [https://youtu.be/BEyZ60DHLnE Video: Mechanical Work] | | * [https://cnx.org/contents/A3gVi_44@1.67:YLRye4Ke@4 OpenStax: Law of Reflection] |
| * [https://youtu.be/y265HF0I1kg Video: Work required to lift an object (Discovery of Potential Energy)] | | * [https://cnx.org/contents/A3gVi_44@1.67:ALGlIz1W@8 OpenStax: Total Internal Reflection] |
| * [https://youtu.be/a5qhsUWiZjw Video: Work required to accelerate an object to velocity v (Discovery of Kinetic Energy)] | | * [https://cnx.org/contents/A3gVi_44@1.67:wiHR_GNo@6 OpenStax: Dispersion & Rainbows] |
| | * [https://cnx.org/contents/A3gVi_44@1.67:clTkbiG5@4 OpenStax: Image Formation by Mirrors] |
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| === Readings === | | === 🧪 Simulation === |
| * [https://cnx.org/contents/A3gVi_44@1.67:ZDtuSt4h@2/Introduction-to-Work-Energy-and-Energy-Resources OpenStax: Introduction to Work, Energy, and Energy Resources] | | * [https://phet.colorado.edu/en/simulation/bending-light PhET: Bending Light] |
| * [https://cnx.org/contents/A3gVi_44@1.67:NkooLWJ4@7/Work-The-Scientific-Definition OpenStax: Work: The Scientific Definition]
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| * [https://cnx.org/contents/A3gVi_44@1.67:P_-6tVsN@5/Kinetic-Energy-and-the-Work-Energy-Theorem OpenStax: Kinetic Energy and the Work-Energy Theorem]
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| * [https://cnx.org/contents/A3gVi_44@1.67:RTxYH8A6@9/Gravitational-Potential-Energy OpenStax: Gravitational Potential Energy ]
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| * [https://cnx.org/contents/A3gVi_44@1.67:MvpfSmd_@5/Conservative-Forces-and-Potential-Energy OpenStax: Conservative Forces and Potential Energy]
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| * [https://cnx.org/contents/A3gVi_44@1.67:CS_6KKGe@8/Nonconservative-Forces OpenStax: Nonconservative Forces]
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| * [https://cnx.org/contents/A3gVi_44@1.67:xa2wEvur@7/Conservation-of-Energy OpenStax: Conservation of Energy]
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| * [https://cnx.org/contents/A3gVi_44@1.67:CS_6KKGe@8/Nonconservative-Forces OpenStax: Nonconservative Forces]
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| == Reflection and Refraction ==
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| === Videos ===
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| * [https://www.youtube.com/watch?v=UUyoVtdEkd4 Video: Finding the mirror-image of an object]
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| * [https://www.youtube.com/watch?v=1hZSmzBA348 Video: Finding the angle of refraction geometrically]
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| * [https://www.youtube.com/watch?v=idHUKmJIDUQ Video: Images of curved mirrors: Concave mirror (converging)]
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| * [https://www.youtube.com/watch?v=dx7RAI_DCF0 Video: Images of curved mirrors: Convex Mirror (diverging)]
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| === Readings ===
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| * [https://cnx.org/contents/A3gVi_44@1.67:itIvTSi4@2/Introduction-to-Geometric-Optics OpenStax: Introduction to Geometric Optics]
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| * [https://cnx.org/contents/A3gVi_44@1.67:nOWj2nQA@4/The-Ray-Aspect-of-Light OpenStax: The Ray Aspect of Light]
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| * [https://cnx.org/contents/A3gVi_44@1.67:YLRye4Ke@4/The-Law-of-Reflection OpenStax: The Law of Reflection]
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| * [https://cnx.org/contents/A3gVi_44@1.67:ALGlIz1W@8/Total-Internal-Reflection OpenStax: Total Internal Reflection]
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| * [https://cnx.org/contents/A3gVi_44@1.67:wiHR_GNo@6/Dispersion-The-Rainbow-and-Prisms OpenStax: Dispersion: The Rainbow and Prisms]
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| * [https://cnx.org/contents/A3gVi_44@1.67:clTkbiG5@4/Image-Formation-by-Mirrors OpenStax: Image Formation by Mirrors]
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| === Simulation ===
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| * [https://phet.colorado.edu/en/simulation/bending-light Simulation: Bending Light]
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| == Thin Lenses == | | == Thin Lenses == |
| === Videos === | | === 🎥 Videos === |
| * [https://www.youtube.com/watch?v=FwqbeZE3czk Video: Converging and Diverging Lenses] | | * [https://www.youtube.com/watch?v=FwqbeZE3czk Converging & Diverging Lenses] |
| * [https://www.youtube.com/watch?v=YbBf2vm6afQ Video: Finding the images of thin lenses using ray tracing] | | * [https://www.youtube.com/watch?v=YbBf2vm6afQ Ray Tracing with Lenses] |
| * [https://www.youtube.com/watch?v=jPn_66gpZDk Video: Using the thin lens equation] | | * [https://www.youtube.com/watch?v=jPn_66gpZDk Thin Lens Equation] |
| * [https://www.youtube.com/watch?v=n3ofdUub8mg Video: Calculating the diopters of glasses for Myopia] | | * [https://www.youtube.com/watch?v=n3ofdUub8mg Glasses for Myopia] |
| * [https://www.youtube.com/watch?v=0-FVNr5_soc Video: Calculating the diopters of reading glasses] | | * [https://www.youtube.com/watch?v=0-FVNr5_soc Glasses for Reading] |
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| === Readings === | | === 📖 Readings === |
| * [https://cnx.org/contents/A3gVi_44@1.67:2Xfd9mm_@6/Image-Formation-by-Lenses OpenStax: Image Formation by Lenses] | | * [https://cnx.org/contents/A3gVi_44@1.67:2Xfd9mm_@6 OpenStax: Image Formation by Lenses] |
| * [https://cnx.org/contents/A3gVi_44@1.67:JmLkrYao@2/Introduction-to-Vision-and-Optical-Instruments OpenStax: Introduction to Vision and Optical Instruments] | | * [https://cnx.org/contents/A3gVi_44@1.67:JmLkrYao@2 OpenStax: Vision & Optical Instruments] |
| * [https://cnx.org/contents/A3gVi_44@1.67:edFYqrQm@3/Physics-of-the-Eye OpenStax: Physics of the Eye] | | * [https://cnx.org/contents/A3gVi_44@1.67:edFYqrQm@3 OpenStax: Physics of the Eye] |
| * [https://cnx.org/contents/A3gVi_44@1.67:KTP7ZmBy@2/Vision-Correction OpenStax: Vision Correction] | | * [https://cnx.org/contents/A3gVi_44@1.67:KTP7ZmBy@2 OpenStax: Vision Correction] |
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| === Simulation === | | === 🧪 Simulation === |
| * [http://phet.colorado.edu/sims/geometric-optics/geometric-optics_en.html Simulation: Lenses] | | * [http://phet.colorado.edu/sims/geometric-optics/geometric-optics_en.html PhET: Lenses] |